<description>Motivation Logos seeks to use a privacy-first virtual machine for transaction execution. We beleive this can only be acheived through zero-knowledge.</description>
<description>Carnot (formerly LogosBFT) is a Byzantine Fault Tolerant (BFT) consensus candidate for the Nomos Network that utilizes Fountain Codes and a committees tree structure to optimize message propagation in the presence of a large number of nodes, while maintaining high througput and fast finality.</description>
<description>This track of work is dedicated to creating theoretical models of distributed consensus in order to evaluate them from a mathematical standpoint.</description>
<description>Consensus is the foundation of the network. It is how a group of peer-to-peer nodes understands how to agree on information in a distributed way.</description>
<description>Data Distribution How much failure rate of erasure code transmission are we expecting. Basically, what are the EC coding parameters that we expect to be sending such that we have some failure rate of transmission?</description>
<description>Glacier is a consensus candidate for the Logos network that aims to be an improvement to the Avalanche family of consensus protocols.</description>
<description>About Status Status is building the tools and infrastructure for the advancement of a secure, private, and open web3.
With the high level goals of preserving the right to privacy, mitigating the risk of censorship, and promoting economic trade in a transparent, open manner, Status is building a community where anyone is welcome to join and contribute.</description>
<description>In order to evaluate the properties of the Avalanche family of consensus protocols more rigorously than the original whitepapers, we work to create an analytical framework to explore and better understand the theoretical boundaries of the underlying protocols, and under what parameterization they will break vs a set of adversarial strategies</description>
